Bovine microsatellite loci are highly conserved in red deer (Cervus elaphus), sika deer (Cervus nippon) and Soay sheep (Ovis aries)

Slate, Jon; Coltman, David W.; Goodman, Simon J.; Maclean, Ian; Pemberton, J. M.; Williams, J. L.

doi:10.1046/j.1365-2052.1998.00347.x

Cited by 134 publications

(78 citation statements)

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“…In our study about 60% of micro- satellite loci were successfully amplifi ed with the use of bovine primers in sheep and red deer species, being comparable to such a study in sheep performed by de Gortari et al (1997) and much higher than the results obtained in red deer by Kuhn et al (1996) (around 50% loci typed). Slate et al (1998) obtained a substantially higher yield of microsatellite amplifi cation in sheep and two deer species (above 70%) after extensive optimization of PCR conditions with the use of bovine primers for both species. In case of goat, our amplifi cation reached 50% of bovine microsatellite loci and was lower than in the study of Pepin et al (1995) (60% of loci typed).…”

Section: Discussionmentioning

confidence: 99%

“…A large number of papers also reported conservation on the DNA level between different mammalian species, based on anonymous DNA markers such as microsatellite loci (Moor et al, 1991;de Gortari et al, 1997;Slate et al, 1998). Microsatellite markers have been effi ciently used in genome mapping projects, pedigree determination, and population genetics in humans and animals.…”

Section: Introductionmentioning

confidence: 99%

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Comparison of GTG-banded karyotypes and microsatellite sequences in some species of the Bovidae and Cervidae families

Kozubska‐Sobocińska¹,

Ząbek²,

Słota³

et al. 2007

J. Anim. Feed Sci.

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Comparison of GTG-banded cattle, sheep, goat, and fallow deer chromosomes showed conformity of G-banding patterns for chromosomes of fallow deer. In Bovidae species, autosomes were shown that were involved in centric fusion, giving a metacentric pair in fallow deer.Twenty-two microsatellite markers were amplifi ed with the use of bovine specifi c primers in the investigated species. The results of cross-species amplifi cation showed that microsatellites BM143, CSSM016 and TGLA53 seem to be conservative across all investigated ruminant species. Sequencing confi rmed short tandem repeat motives of the TGLA53 marker among selected Bovidae and Cervidae species. About 60% of microsatellite loci were successfully amplifi ed with the use of bovine primers in sheep and red deer species, 50% in goat, 55% in western roe deer, and 36% in fallow deer. This suggests that, on the DNA level, the genomes of red deer and sheep are more closely related to the bovine genome than genomes of the other studied ruminants.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Comparison of GTG-banded karyotypes and microsatellite sequences in some species of the Bovidae and Cervidae families

Kozubska‐Sobocińska¹,

Ząbek²,

Słota³

et al. 2007

J. Anim. Feed Sci.

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“…Although development of microsatellite primers is time-consuming they can be used in other closelyrelated species (usually within the same family) so that the process does not have to be repeated for every species (e.g. Coote and Bruford 1996;Engel et al 1996;Primmer et al 1996;Slate et al 1998;Zhang et al 2001;Zenger et al 2002). Importantly, because any given set of microsatellite PCR primers typically only amplify DNA from closely related species, contaminating DNA (either from bacteria or dietary components in the case of faeces) is unlikely to interfere with interpretation.…”

Section: How It Workmentioning

confidence: 99%

Remote collection of animal DNA and its applications in conservation management and understanding the population biology of rare and cryptic species

Piggott¹,

Taylor²

2003

Wildl. Res.

155

127

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Abstract.Obtaining useful information about elusive or endangered species can be logistically difficult, particularly if relying entirely on field signs such as hair, feathers or faeces. However, recent developments in molecular technology add substantially to the utility of such 'non-invasive' samples, which provide a source of DNA that can be used to identify not only species but also individuals and their gender. This provides great potential to improve the accuracy of abundance estimates and determine behavioural parameters, such as home-range size, individual habitat and dietary preferences, and even some forms of social interaction. Non-invasive samples can also be a useful alternative to blood or tissue samples (the collection of which traditionally has required trapping of animals) as genetic material for applications such as relatedness, population genetic and phylogenetic analyses. Despite the huge potential of non-invasive genetic sampling, the current technology does have limitations. The low quantity and quality of DNA often obtained from such sources results in an increased risk of genotyping errors, which may lead to incorrect inferences, particularly false identification of individuals. Appropriate precautions and pilot studies are required to minimise these risks, and in some cases it may be wise to employ traditional methods when they are adequate.

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“…This study aimed to test a panel of microsatellites that were isolated in deer, sika deer, reindeer, Soay sheep, and other artiodactyls (Slate et al, 1998;Wilson and Strobeck, 1999;Cronin et al, 2006) in pudu and huemul and to compare nonspecific microsatellite loci against huemul-specific loci. This was performed in order to identify loci that i) successfully amplify, ii) are polymorphic in both species, and iii) generate short amplification products (<350 bp), facilitating their use in DNA that is obtained from feces and hairs.…”

Section: Introductionmentioning

confidence: 99%

Cross-amplification of nonspecific microsatellites markers: a useful tool to study endangered/vulnerable species of southern Andes deer

Marín¹,

Orozco‐terWengel²,

Romero³

et al. 2014

Genet. Mol. Res.

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ABSTRACT. Thirty-nine microsatellite loci that are highly conserved in red deer, sika deer, reindeer, Soay sheep, and other artiodactyls were tested in two vulnerable and endangered Neotropical deer (pudu: Pudu puda and huemul: Hippocamelus bisulcus) with the aim of producing a standardized set of markers that can be used successfully in noninvasive samples from these species. We also compared these nonspecific loci against eight polymorphic loci that were recently developed for huemul to determine whether the nonspecific markers could reflect the huemul's genetic variation that was observed with the specific loci. We identified 10 suitable loci, six of which constitute a standardized set for the two species and can be used to identify them in the absence of phenotypic data. The expected heterozygosity per locus for the panel of six loci ranged from 0.461 to 0.889 (average 0.665), and the maximum probability of identity value was 6.9 x 10 -6 and 3.2 x 10 -4 in pudu and huemul, respectively. This set of loci has potential applications in evolutionary, ecological, forensic, and conservation studies in pudu and huemul.

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Bovine microsatellite loci are highly conserved in red deer (Cervus elaphus), sika deer (Cervus nippon) and Soay sheep (Ovis aries)

Cited by 134 publications

References 0 publications

Comparison of GTG-banded karyotypes and microsatellite sequences in some species of the <i>Bovidae</i> and <i>Cervidae</i> families

Comparison of GTG-banded karyotypes and microsatellite sequences in some species of the <i>Bovidae</i> and <i>Cervidae</i> families

Remote collection of animal DNA and its applications in conservation management and understanding the population biology of rare and cryptic species

Cross-amplification of nonspecific microsatellites markers: a useful tool to study endangered/vulnerable species of southern Andes deer

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